Commit graph

11 commits

Author SHA1 Message Date
irate
1e7e6c93e6
Fix scene example (#11289)
Since #9907 the generation starts at `1` instead of `0` so
`Entity::to_bits` now returns `4294967296` (ie. `u32::MAX + 1`) as the
lowest number instead of `0`.

Without this change scene loading fails with this error message:
`ERROR bevy_asset::server: Failed to load asset
'scenes/load_scene_example.scn.ron' with asset loader
'bevy_scene::scene_loader::SceneLoader': Could not parse RON: 8:6:
Invalid generation bits`
2024-01-22 15:14:41 +00:00
Alex Okafor
5a4a2882c7
Fix load scene example to use proper serialization format for rotation field (#10638)
# Objective

Fixes #10479

## Solution

- Updated scene file
2023-11-21 01:14:50 +00:00
Francesco
7b38de0a64
(De) serialize resources in scenes (#6846)
# Objective

Co-Authored-By: davier
[bricedavier@gmail.com](mailto:bricedavier@gmail.com)
Fixes #3576.
Adds a `resources` field in scene serialization data to allow
de/serializing resources that have reflection enabled.

## Solution

Most of this code is taken from a previous closed PR:
https://github.com/bevyengine/bevy/pull/3580. Most of the credit goes to
@Davier , what I did was mostly getting it to work on the latest main
branch of Bevy, along with adding a few asserts in the currently
existing tests to be sure everything is working properly.

This PR changes the scene format to include resources in this way:
```
(
  resources: {
    // List of resources here, keyed by resource type name.
  },
  entities: [
    // Previous scene format here
  ],
)
```

An example taken from the tests:
```
(
  resources: {
    "bevy_scene::serde::tests::MyResource": (
      foo: 123,
    ),
  },
  entities: {
    // Previous scene format here
  },
)
```
For this, a `resources` fields has been added on the `DynamicScene` and
the `DynamicSceneBuilder` structs. The latter now also has a method
named `extract_resources` to properly extract the existing resources
registered in the local type registry, in a similar way to
`extract_entities`.


---

## Changelog


Added: Reflect resources registered in the type registry used by dynamic
scenes will now be properly de/serialized in scene data.

## Migration Guide

Since the scene format has been changed, the user may not be able to use
scenes saved prior to this PR due to the `resources` scene field being
missing. ~~To preserve backwards compatibility, I will try to make the
`resources` fully optional so that old scenes can be loaded without
issue.~~

## TODOs

- [x] I may have to update a few doc blocks still referring to dynamic
scenes as mere container of entities, since they now include resources
as well.
- [x] ~~I want to make the `resources` key optional, as specified in the
Migration Guide, so that old scenes will be compatible with this
change.~~ Since this would only be trivial for ron format, I think it
might be better to consider it in a separate PR/discussion to figure out
if it could be done for binary serialization too.
- [x] I suppose it might be a good idea to add a resources in the scene
example so that users will quickly notice they can serialize resources
just like entities.

---------

Co-authored-by: Carter Anderson <mcanders1@gmail.com>
2023-03-20 21:17:02 +00:00
Gino Valente
bb968f41bc bevy_scene: Serialize entities to map (#6416)
# Objective

Entities are unique, however, this is not reflected in the scene format. Currently, entities are stored in a list where a user could inadvertently create a duplicate of the same entity. 

## Solution

Switch from the list representation to a map representation for entities.

---

## Changelog

* The `entities` field in the scene format is now a map of entity ID to entity data

## Migration Guide

The scene format now stores its collection of entities in a map rather than a list:

```rust
// OLD
(
  entities: [
    (
      entity: 12,
      components: {
        "bevy_transform::components::transform::Transform": (
          translation: (
            x: 0.0,
            y: 0.0,
            z: 0.0
          ),
          rotation: (0.0, 0.0, 0.0, 1.0),
          scale: (
            x: 1.0,
            y: 1.0,
            z: 1.0
          ),
        ),
      },
    ),
  ],
)

// NEW
(
  entities: {
    12: (
      components: {
        "bevy_transform::components::transform::Transform": (
          translation: (
            x: 0.0,
            y: 0.0,
            z: 0.0
          ),
          rotation: (0.0, 0.0, 0.0, 1.0),
          scale: (
            x: 1.0,
            y: 1.0,
            z: 1.0
          ),
        ),
      },
    ),
  },
)
```
2022-10-31 16:35:18 +00:00
Gino Valente
894334b51e bevy_scene: Use map for scene components (#6345)
# Objective

Currently scenes define components using a list:

```rust
[
  (
    entity: 0,
    components: [
      {
        "bevy_transform::components::transform::Transform": (
          translation: (
            x: 0.0,
            y: 0.0,
            z: 0.0
          ),
          rotation: (0.0, 0.0, 0.0, 1.0),
          scale: (
            x: 1.0,
            y: 1.0,
            z: 1.0
          ),
        ),
      },
      {
        "my_crate::Foo": (
          text: "Hello World",
        ),
      },
      {
        "my_crate::Bar": (
          baz: 123,
        ),
      },
    ],
  ),
]
```

However, this representation has some drawbacks (as pointed out by @Metadorius in [this](https://github.com/bevyengine/bevy/pull/4561#issuecomment-1202215565) comment):

1. Increased nesting and more characters (minor effect on overall size)
2. More importantly, by definition, entities cannot have more than one instance of any given component. Therefore, such data is best stored as a map— where all values are meant to have unique keys.


## Solution

Change `components` to store a map of components rather than a list:

```rust
[
  (
    entity: 0,
    components: {
      "bevy_transform::components::transform::Transform": (
        translation: (
          x: 0.0,
          y: 0.0,
          z: 0.0
        ),
        rotation: (0.0, 0.0, 0.0, 1.0),
        scale: (
          x: 1.0,
          y: 1.0,
          z: 1.0
        ),
      ),
      "my_crate::Foo": (
        text: "Hello World",
      ),
      "my_crate::Bar": (
        baz: 123
      ),
    },
  ),
]
```

#### Code Representation

This change only affects the scene format itself. `DynamicEntity` still stores its components as a list. The reason for this is that storing such data as a map is not really needed since:
1. The "key" of each value is easily found by just calling `Reflect::type_name` on it
2. We should be generating such structs using the `World` itself which upholds the one-component-per-entity rule

One could in theory create manually create a `DynamicEntity` with duplicate components, but this isn't something I think we should focus on in this PR. `DynamicEntity` can be broken in other ways (i.e. storing a non-component in the components list), and resolving its issues can be done in a separate PR.

---

## Changelog

* The scene format now uses a map to represent the collection of components rather than a list

## Migration Guide

The scene format now uses a map to represent the collection of components. Scene files will need to update from the old list format.

<details>
<summary>Example Code</summary>

```rust
// OLD
[
  (
    entity: 0,
    components: [
      {
        "bevy_transform::components::transform::Transform": (
          translation: (
            x: 0.0,
            y: 0.0,
            z: 0.0
          ),
          rotation: (0.0, 0.0, 0.0, 1.0),
          scale: (
            x: 1.0,
            y: 1.0,
            z: 1.0
          ),
        ),
      },
      {
        "my_crate::Foo": (
          text: "Hello World",
        ),
      },
      {
        "my_crate::Bar": (
          baz: 123,
        ),
      },
    ],
  ),
]

// NEW
[
  (
    entity: 0,
    components: {
      "bevy_transform::components::transform::Transform": (
        translation: (
          x: 0.0,
          y: 0.0,
          z: 0.0
        ),
        rotation: (0.0, 0.0, 0.0, 1.0),
        scale: (
          x: 1.0,
          y: 1.0,
          z: 1.0
        ),
      ),
      "my_crate::Foo": (
        text: "Hello World",
      ),
      "my_crate::Bar": (
        baz: 123
      ),
    },
  ),
]
```

</details>
2022-10-27 01:46:33 +00:00
Gino Valente
beab0bdc63 bevy_scene: Replace root list with struct (#6354)
# Objective

Scenes are currently represented as a list of entities. This is all we need currently, but we may want to add more data to this format in the future (metadata, asset lists, etc.). 

It would be nice to update the format in preparation of possible future changes. Doing so now (i.e., before 0.9) could mean reduced[^1] breakage for things added in 0.10.

[^1]: Obviously, adding features runs the risk of breaking things regardless. But if all features added are for whatever reason optional or well-contained, then users should at least have an easier time updating.

## Solution

Made the scene root a struct rather than a list.

```rust
(
  entities: [
    // Entity data here...
  ]
)
```

---

## Changelog

* The scene format now puts the entity list in a newly added `entities` field, rather than having it be the root object

## Migration Guide

The scene file format now uses a struct as the root object rather than a list of entities. The list of entities is now found in the `entities` field of this struct.

```rust
// OLD
[
  (
    entity: 0,
    components: [
      // Components...
    ]
  ),
]

// NEW
(
  entities: [
    (
      entity: 0,
      components: [
        // Components...
      ]
    ),
  ]
)
```


Co-authored-by: Gino Valente <49806985+MrGVSV@users.noreply.github.com>
2022-10-24 21:01:11 +00:00
Gino Valente
d30d3e752a bevy_reflect: Improve serialization format even more (#5723)
> Note: This is rebased off #4561 and can be viewed as a competitor to that PR. See `Comparison with #4561` section for details.

# Objective

The current serialization format used by `bevy_reflect` is both verbose and error-prone. Taking the following structs[^1] for example:

```rust
// -- src/inventory.rs

#[derive(Reflect)]
struct Inventory {
  id: String,
  max_storage: usize,
  items: Vec<Item>
}

#[derive(Reflect)]
struct Item {
  name: String
}
```

Given an inventory of a single item, this would serialize to something like:

```rust
// -- assets/inventory.ron

{
  "type": "my_game::inventory::Inventory",
  "struct": {
    "id": {
      "type": "alloc::string::String",
      "value": "inv001",
    },
    "max_storage": {
      "type": "usize",
      "value": 10
    },
    "items": {
      "type": "alloc::vec::Vec<alloc::string::String>",
      "list": [
        {
          "type": "my_game::inventory::Item",
          "struct": {
            "name": {
              "type": "alloc::string::String",
              "value": "Pickaxe"
            },
          },
        },
      ],
    },
  },
}
```

Aside from being really long and difficult to read, it also has a few "gotchas" that users need to be aware of if they want to edit the file manually. A major one is the requirement that you use the proper keys for a given type. For structs, you need `"struct"`. For lists, `"list"`. For tuple structs, `"tuple_struct"`. And so on.

It also ***requires*** that the `"type"` entry come before the actual data. Despite being a map— which in programming is almost always orderless by default— the entries need to be in a particular order. Failure to follow the ordering convention results in a failure to deserialize the data.

This makes it very prone to errors and annoyances.


## Solution

Using #4042, we can remove a lot of the boilerplate and metadata needed by this older system. Since we now have static access to type information, we can simplify our serialized data to look like:

```rust
// -- assets/inventory.ron

{
  "my_game::inventory::Inventory": (
    id: "inv001",
    max_storage: 10,
    items: [
      (
        name: "Pickaxe"
      ),
    ],
  ),
}
```

This is much more digestible and a lot less error-prone (no more key requirements and no more extra type names).

Additionally, it is a lot more familiar to users as it follows conventional serde mechanics. For example, the struct is represented with `(...)` when serialized to RON.

#### Custom Serialization

Additionally, this PR adds the opt-in ability to specify a custom serde implementation to be used rather than the one created via reflection. For example[^1]:

```rust
// -- src/inventory.rs

#[derive(Reflect, Serialize)]
#[reflect(Serialize)]
struct Item {
  #[serde(alias = "id")]
  name: String
}
```

```rust
// -- assets/inventory.ron

{
  "my_game::inventory::Inventory": (
    id: "inv001",
    max_storage: 10,
    items: [
      (
        id: "Pickaxe"
      ),
    ],
  ),
},
```

By allowing users to define their own serialization methods, we do two things:

1. We give more control over how data is serialized/deserialized to the end user
2. We avoid having to re-define serde's attributes and forcing users to apply both (e.g. we don't need a `#[reflect(alias)]` attribute).

### Improved Formats

One of the improvements this PR provides is the ability to represent data in ways that are more conventional and/or familiar to users. Many users are familiar with RON so here are some of the ways we can now represent data in RON:

###### Structs

```js
{
  "my_crate::Foo": (
    bar: 123
  )
}
// OR
{
  "my_crate::Foo": Foo(
    bar: 123
  )
}
```

<details>
<summary>Old Format</summary>

```js
{
  "type": "my_crate::Foo",
  "struct": {
    "bar": {
      "type": "usize",
      "value": 123
    }
  }
}
```

</details>

###### Tuples

```js
{
  "(f32, f32)": (1.0, 2.0)
}
```

<details>
<summary>Old Format</summary>

```js
{
  "type": "(f32, f32)",
  "tuple": [
    {
      "type": "f32",
      "value": 1.0
    },
    {
      "type": "f32",
      "value": 2.0
    }
  ]
}
```

</details>

###### Tuple Structs

```js
{
  "my_crate::Bar": ("Hello World!")
}
// OR
{
  "my_crate::Bar": Bar("Hello World!")
}
```

<details>
<summary>Old Format</summary>

```js
{
  "type": "my_crate::Bar",
  "tuple_struct": [
    {
      "type": "alloc::string::String",
      "value": "Hello World!"
    }
  ]
}
```

</details>

###### Arrays

It may be a bit surprising to some, but arrays now also use the tuple format. This is because they essentially _are_ tuples (a sequence of values with a fixed size), but only allow for homogenous types. Additionally, this is how RON handles them and is probably a result of the 32-capacity limit imposed on them (both by [serde](https://docs.rs/serde/latest/serde/trait.Serialize.html#impl-Serialize-for-%5BT%3B%2032%5D) and by [bevy_reflect](https://docs.rs/bevy/latest/bevy/reflect/trait.GetTypeRegistration.html#impl-GetTypeRegistration-for-%5BT%3B%2032%5D)).

```js
{
  "[i32; 3]": (1, 2, 3)
}
```

<details>
<summary>Old Format</summary>

```js
{
  "type": "[i32; 3]",
  "array": [
    {
      "type": "i32",
      "value": 1
    },
    {
      "type": "i32",
      "value": 2
    },
    {
      "type": "i32",
      "value": 3
    }
  ]
}
```

</details>

###### Enums

To make things simple, I'll just put a struct variant here, but the style applies to all variant types:

```js
{
  "my_crate::ItemType": Consumable(
    name: "Healing potion"
  )
}
```

<details>
<summary>Old Format</summary>

```js
{
  "type": "my_crate::ItemType",
  "enum": {
    "variant": "Consumable",
    "struct": {
      "name": {
        "type": "alloc::string::String",
        "value": "Healing potion"
      }
    }
  }
}
```

</details>

### Comparison with #4561

This PR is a rebased version of #4561. The reason for the split between the two is because this PR creates a _very_ different scene format. You may notice that the PR descriptions for either PR are pretty similar. This was done to better convey the changes depending on which (if any) gets merged first. If #4561 makes it in first, I will update this PR description accordingly.

---

## Changelog

* Re-worked serialization/deserialization for reflected types
* Added `TypedReflectDeserializer` for deserializing data with known `TypeInfo`
* Renamed `ReflectDeserializer` to `UntypedReflectDeserializer` 
* ~~Replaced usages of `deserialize_any` with `deserialize_map` for non-self-describing formats~~ Reverted this change since there are still some issues that need to be sorted out (in a separate PR). By reverting this, crates like `bincode` can throw an error when attempting to deserialize non-self-describing formats (`bincode` results in `DeserializeAnyNotSupported`)
* Structs, tuples, tuple structs, arrays, and enums are now all de/serialized using conventional serde methods

## Migration Guide

* This PR reduces the verbosity of the scene format. Scenes will need to be updated accordingly:

```js
// Old format
{
  "type": "my_game::item::Item",
  "struct": {
    "id": {
      "type": "alloc::string::String",
      "value": "bevycraft:stone",
    },
    "tags": {
      "type": "alloc::vec::Vec<alloc::string::String>",
      "list": [
        {
          "type": "alloc::string::String",
          "value": "material"
        },
      ],
    },
}

// New format
{
  "my_game::item::Item": (
    id: "bevycraft:stone",
    tags: ["material"]
  )
}
```

[^1]: Some derives omitted for brevity.
2022-09-20 19:38:18 +00:00
Tristan Guichaoua
e8439bf827 fix Quat type name in scene example scene file (#5803)
# Objective

fix #5790 

## Solution

Change type name in the scene file by its new name `glam::f32::sse2::quat::Quat`.
2022-08-29 23:56:42 +00:00
Tomasz Galkowski
04538fd802 fixes the types for Vec3 and Quat in scene example to remove WARN from the logs (#5751)
# Objective
- Fixes #5745.

## Solution
- Changes the Vec3 and Quat types.
2022-08-20 19:55:53 +00:00
Anders Rasmussen
9bf80a8566 Fix warning in scene example (#1441)
I noticed the following error when trying out the `scene` example

```bash
Feb 13 22:11:13.997  WARN bevy_asset::asset_server: encountered an error while loading an asset: No registration found for glam::f32::vec3::Vec3
```

This PR fixes the error and makes the scene file load correctly
2021-02-22 03:59:36 +00:00
Zicklag
cc9ed52ea7
Update Scene Example to Use scn.ron File (#1339) 2021-01-28 14:14:50 -08:00
Renamed from assets/scenes/load_scene_example.scn (Browse further)